Track cleaning car



pri 25, 1950 R. N. MILLER ET Al.

TRACK CLEANING CAR 12 Sheets-Sheet 1 Filed March 3, 1945 NNN April 25, 195C R. N. MILLER ET AL TRACK CLEANING CAR MVV 12 Sheets-Sheet 3 R. N. MILLER ET AL TRACK CLEANING CAR llilllllllllllu'l I xKllllLxH April 25, 1950 Filed March 5, 1943 mw, 2nd Y WM@ EM M V H +o NINZ T m MN 7. MWF

April 25, 1950 R. N. MILLER x-:T AL

TRACK CLEANING CAR 12 Sheets-Sheet 4 Filed March 3, 1943 prill 25, 1950 R. N. MILLER ET AL TRACK CLEANING CAR Filed March s, 1943 12 Sheets-Sheet 5 .7M 206' jij a IVI TNESSES;

A TTORNE YS.

IPIIH 25, 1950 R. N. MILLER ET AL 2,505,501

TRACK CLEANING CAR A TTORNE YS.

Amin 25, 1950 R. N. MILLER ET AL 2,505,501

TRACK CLEANING CAR Filed March 5, 1943 12 Sheets-Sheet 7 #mi ya@ BY Maj/g1g. @maar/g @72m o. @gok-gq rill 25, 1950 R. N. MILLER ET A1.

TRACK CLEANING CAR 12 Sheets-Sheet 8 Filed March 3, 1945 April 25, 1950 R. N. MILLER ET AL TRACK CLEANING CAR 12 Sheets-Sheet 9 Filed March 3, 1945 H aci TRACK CLEANING CAR 12 Sheets-Sheet ELO Filed March 3, 1945 pril 25, w50 R. N. MILLER ETAL TRACK CLEANING CAR 12 Sheets-Sheet l1 Filed March 3, 1945 IFWIH 25, w50 l R. N. MILLER ET AL. 2,505,501

TRACK CLEANING CAR Filed March 5, 1943 12 Sheets-Sheet li? @l a U3 E N i@ bw s M4 NF l i .lnillul JI I WITNESSES: INVENTORS.

jiaezfl/IMI//f WQM l. By my' [fg/70M, 025W Patented Apr.n 25, i950 TRACK CLEANING CAB Robert N. Miller, Rosemont, and William H.

Grindall, Narberth, Pa.,

assignors to The Pennsylvania Railroad Company, Philadelphia, Fa., a corporation of Pennsylvania Application March 3, l9d3, Serial No. 473,886

lo iUlalma. (lll. l5-55) This invention relates to railway track cleaning cars. In the operation of railways in coal mining districts or in desert regions, diicultles are had with electrically-actuated signal systems due to short circuiting of the rails by heavy accumulation and packing of cinders, sand and/or dirt, etc., on the track beds. To keep the road beds clean, it has been necessary heretofore to employ road gangs to manually remove the refuse deposits from time to time which was not only a slow and arduous task, but extremely costly to the railroads.

The chiel aim oi our invention is to overcome the above mentioned drawbacks, that is to say. to make it possible to quickly and emciently break up and dislodge such accumulated refuse from the track beds, not only from the portions between the rails and beyond them, but from beneath the bri v l portions of the rails between the ties as well; and to collect the material so dislodged.

This deslderatum is realized in practice as hereinafter more fully disclosed, in a track cleaning car designed for travel on the track rails at a moderate rate, and having incorporated therewith; blast means lor continuously dislodging clinging matter from within the side hollows of the rails in addition to that packed beneath the rails between the ties; gathering means for continuously collecting the disintegrated refuse; means for continuously elevating the collected material to a high level on the car for gravity discharge into an attending dirt car; and means lor continuously wiping the rails clean of any grit or dirt which may have fallen upon them.

ln connection with a track cleaning car characterized as above, it is a further aim of our invention to enable provision of means whereby the blast means and the gathering means can be individually withdrawn from normal proximity to the track bed and secured in retracted positions preparatory to high speed travel of the car between dierent, localities where cleaning is to be effected.

Another object of our invention is to provide for the support of the blast and the collecting mechanisms in such a way that they may yield to free up and down movement in overpassing irregularities in the refuse deposits and be thereby protected against possible injury during the cleaning.

Other objects and attendant advantages will appear from the following detailed description o the attached drawings, wherein:

Fig. 1 is a view in side elevation of a railway lil train in which the track cleaning car of our invention is interposed.

Fig. 2 shows a side elevation of the cleaning car drawn to a larger scale, with the scarifying, blasting, gathering and rail wiping means all raised to inactive or retracted positions.

Fig. 3 is a view drawn to a still larger scale showing the front half portion of the car in side elevation.

Fig. 4 is a view corresponding to Fig. 3 showing the rear half portion of the car in side elevation.

Fig. 5 shows the front end elevation of the car with certain parts thereof in cross section, the plane of which is indicated by the angled arrows V-V in Fig. 3.

Figs. 6, 7 and 3 are cross sectional views of the car taken as indicated respectively by the arrows VI-VI, VII- VII and VIII- VIII in Figs. 2 and i.

Fig. 9 is a fragmentary detail view in side elevation of the mid portion of the car showing means for adjusting the height of rotary brushes of the gathering means to compensate for wear, and means whereby the gathering means can be elevated to and locked in retracted position with the brushes supported clear of the track rails.

Fig. l0 is a fragmentary broken out view corresponding to Fig. 9 showing the gathering means locked in elevated position.

Fig. 11 is a fragmentary detail sectional view taken as indicated by the angled arrows m-XI in Fig. 9.

Fig. 12 is a fragmentary detail view looking as indicated by the angled arrows m-XII in Figs. 4L and 9.

Fig. 13 is a central longitudinal sectional view i of the gathering means, taken as indicated by the angled arrows m-XIII in Fig. '7.

Figs. 14, 15, 16 and 17 are detail cross sections of the gathering means taken as respectively indicated by the angled arrows XIV-Kw2 XV-XV, XVI-XVI, and XVII-XVII in Figs. d and 13.

Fig. 18 is a fragmentary detail view of the gathering means in longitudinal section, corresponding to Fig. 13, but taken as indicated by the arrows XVIII--XVIII in Fig. 17, and drawn to a larger scale to more clearly show important structural details.

Figs. 19 and 2O are detail cross sectional views taken as respectively indicated by the angled arrows XIX--XIX and XIX-XX in Fig. 13.

Fig. 21 is a fragmentary detail view, corresponding to Fig. d, in side elevation, of a portion of the gathering means.

Figs. 22 and 23 are detail sectional views taken as respectively indicated by the angled arrows XXII- XXII and XXIII-XXIII in Fig. 21.

As best shown in Figs. 2-7 my improved track cleaning car has an open body framework built up of structural steel, with relatively short laterally-spaced pairs of inner and outer side sill channels I and 2 respectively at the front and rear portions of the car above the wheeled supporting trucks 3 and 4, channel side uprights and 6 which extend upward from between said side sill pairs at the inner ends of the latter, and

laterally spaced pairs of main side longitudinals 1 which are rigidly secured to opposite sides of said side uprights at an elevation above said side sills. The body framework also has laterally spaced pairs of supplemental side longitudinals 8 likewise rigidly secured to opposite sides of the uprights 5 and 6 at an elevation above the main side longitudlnals 1, and a. series of suitably spaced intermediate side uprights 9, |0, I| and |2 by which said main and supplemental side longitudinals are connected, as well as forwardly and rearwardly declining parallel diagonal side struts I3, |4 and I5, |6 respectively by which said longitudinals are rigidly tied to the side sills I and 2 at the end portions of the framework. From Fig. 5 it will be observed that the inner side sills I are transversely connected at opposite ends to the parallel center sill channels |9 of the body by cross members |1 and I8, and that the uprights 9 extend below said sills and have their lower ends connected by a cross member 20. Similarly from Fig. 8 it will be noted that the rear side sills 2 are transversely connected at opposite ends to the center sill channels I9 by cross members 2| and 22, and that the lower ends of the uprights 8 extend below said sills for connection by a cross member 23. The body framework further includes a cross member 24 (Fig. 5) which extends between the uprights 9 immediately below the main side longitudinals 1; a cross member 25 which extends between the uprights 6 immediately beneath said main side lcngitudinals 1; and other supplemental longitudinals and cross members which will be separately referred to later on as occasion may require. From this construction there results a relatively light but nevertheless strong and rigid framework whereof the medial portion is bridged between the trucks 3 and 4 with provision of a relatively high interval between said trucks for accommodation of scarifying, blast, gathering, conveying and rail wiping means which are comprehensively designated in the drawings by the letters S, B, C, G, and W respectively. The car is further provided with a hoisting means generally designated H.

The blast means B, per se, forms the subject matter of a separate divisional application Ser. No. 709,636, led by William H. Grindall, one of tlie present applicants, on November 13, 1946. In accordance with the present invention the blast means B is disposed beneath the receiving end of the elevating conveyer means C and attached to the rear of the front truck I of the car. Briey described, this blast means B comprises housings 65 (Fig. 3) one adapted to extend over each track rail R, and each provided, with a runner 59 with its opposite ends curved upwardly for capacity to ride over abnormal obstructions on the track bed. The housings 65 are rigidly united by two parallel cross members 40 and 4|, and the unit B is pivoted at 12 to a frame 10 which is in turn pivoted at 1| to the front truck I. As a consequence, the unit B can be lifted bodily clear of the track rails R from the position of Fig. 3 to the position of Fig. 2 when its use is not desired, it being lockable in raised operative position by pins 13 which are adapted to be passed through eyes in the free end of the frame 10 upon registry with eyes in receiving clips 15 pendent from opposite sides of the car body. The unit B is arranged to be lifted by a cable 11 which passes about a guide sheave 8| on the car frame, and which is wound upon a take-up drum 82. As shown, this drum 82 is ailixed to the shaft 83 of a speed reducer 85 mounted, with an electric drive motor 86 therefor, on the platform of the front truck I. Steam or other pressure fluid used in the blasting is conducted to the unit B by way of piping 50 and 53, said piping having interposed therein a universal joint 52 to permit lifting of the unit as above described. Also interposed in the piping 53 is a control valve 88 see Figs. 4 and 6 whereof the actuating lever 89 is coupled by means of the link 90 with an arm 9| on a crosswise rock shaft 92. As shown in Fig. 6 the rock shaft 92 is journalled in bearing brackets 93 and 94 respectively attached to a supplemental cross member 95 and to the supplemental uprights of the car framework between which said cross member extends. Fixed to the rock shaft 92 adjacent its opposite ends are hand levers 96 convenient of access for manipulation by an attendant standing on an operators control platform 91 at the level of the side longitudinal 1 approximately midway of the length of the car. 1

Gathering means For description of the gathering means G. reference will be had to Figs. 4, 6-8 and 9-23. As shown, the means G has a frame of structural steel with side channels |00 and intermediate longitudinals |0| connected by crosswise end members |02 and |03, and intermediate cross channels |04, see Figs. 4, '7 and 13. The forward ends of the side channels |00 are pivoted at |05 to pendent ear plates |06 on the car framework. Secured to the side channels |00 at their rear ends are bars |01 (Figs. 9 and 10) which carry pads |88 of rubber or the like adapted'to bear on the projecting ends of stops |09 whereby the means G is normally supported at the proper elevation relative to the track bed. Disposed within a sheet housing ||0 suspended from the frame of the mechanism G is a rotary brush I I which, per se, is covered in U. S. Patent #2,398,241 granted to us on April 9, 1946, and which, see Fig- 16, is composed of three sections whereof the intermediate one |||a is the longest and adaptedl to sweep the track bed between the rails R, while the outer ones |||b are narrower and are adapted to sweep the margins of the track bed beyond said rails. As shown, the brush sections |||a and |||b are mounted on a common shaft I2 which is journaled for rotation in bearings ||3 and ||4 at the rear ends of a pair of carrier arms ||5. From Figs. 4, 6 and 15 it will be noted that the brush-carrying arms ||5 are fulcrurned on aligned transverse tubular axes IIB supported by pendent brackets ||1 on the frame of the mechanism. As a consequence the brush is free to rise and fall in passing over irregularities of the track bed. When the brush is in use, it is pneumatically balanced against bouncing by an air cylinder I8 mounted on the top of the frame of the gathering means, the piston rod |9 of said cylinder being connected to a fixed lever |20 on a transverse shaft |2| sponsor r ,iournaled at its ends in bearings |22 on said trarne.4 Another lever |23 on the shaft I2| is coupled by a link |24 with a lever |25 (Fig. l0) on a transverse shaft |25 Journaled in the frame. Amxed to the ends 0f the shaft |25 are levers |21, which are adiustably coupled with the outer ends of tbe brush-carrying arms |I5, the interposed connection at each side of the gathering means G including an eye bolt |28 whereof the threaded shank passes up through a swivelled sleeve |21a on the arm |21, a pair of links `|25a and a pair of stop nuts |281 which engage the protruding end of said bolt and bear on the top of said sleeve. Through the means just described. adjustments can be made for broom wear and for car and track irregularities. Air for operating the pneumatic cylinder ||8 is stored in two tanks |23 suitably supported in suspension by the framework of the car, see Fig. 3, and conducted to the cylinder through piping (not shown) with suitable interposed valves by which the dow of the compressed air can be controlled to maintain the desired balance on the brush lin preparation for travel of the car at high speeds from place to place, the gathering mechanism G is raised to the elevated position shown in Fig. i, in which position it is held after the manner shown in iiig. iii, by means of a stop member ltd whereof the top edge is rounded to engage within a socketed lug itl on the rear end crossmember of the frame. As shown, the stop member |30 is iuicrumed at |32 on the casing of a gear reducing unit |30 which will be again referred to later, and operable by means of a pneumatic cylinder i3d` pivotally connected at its lower end to said gear casing, and having its piston rod itt pivotaliy connected at |3l to said stop member near the top thereof, compressed air being supplied and exhausted from the cylinder through tubes shown at itt and |33 under control of manual valves (not illustrated). Normally, the stop member itt occupies the retracted position shown in Fig. 9, and, after the mechanism Gi has been raised, said member is moved outwardly by admission of compressed air into the cylinder ltd, to the position shown in Fig. l@ whereafter the mechanism is lowered slightly, and the lug iti thereby allowed to come to rest on said member. The stirrups indicated at itt in Figs. d-ll serve by cooperation with projections iti at the swinging ends of the brush carrying arms lit. to prevent the brush I from falling out of the housing iid, as shown in Fig. i0, when the means G is raised to idle position, but will allow free up and down or floating movement of said brush when said means is in the normal or active position in which it is shown in Figs. d and i3. As a safeguard against accidental dropping of the means G from its raised or idle position if for some reason or other the stop member itil should become dislodged, we bare provided at each side of the car framework a clevisw linh- Md, 4see Fig. 8, which is pivotally hung from the side channel bars 1 at one side oi the car, and which is normally held retracted out of the way by a pin itil passed through a reinforcing web 0M on said framework. At their lower ends, the links I2 have apertures for registry with apertures in lugs Mb on the side channels iti ofthe frame of the means D for inseltion of locking pins |46 as shown in Fig. 10.

'ii'o preclude their loss, the pins |43 and Mt are respectively attached by chains ill and llt, see Fig. 9, to the car framework, the pin |43 being inserted into a keeper aperture in the web |46 6. andthepinlltintoanaperturedlusllton said framework so as to be kept from dangling. The mechanism provided for raising and lowering the means G includes a cable |50 which underpasses a pair of sheaves I'5| and |52, see Figs. 'l and 9, Journaled within the ends of a hollow cross-member |51', which, by drop links |54, `is connected to upstanding lugs |55 at the swinging end of the frame of said means. The ends of the cable |50 pass rearwardly over sheaves |55 and |51 respectively supported by a platform |50 on the framework of the car at an elevation above the side longitudinale 1, see Fig. 7, and then forwardly beyond said sheaves, one end being connected to a spring element |59 which is in turn connected to a fixed anchorage |60 on said framework. The other end of the cable |50 likewise `passes forwardly and is connected to a winding drum |5| on the output shaft |62 of a speed reducer |54 driven by an electric motor I, said reducer and motor being also supported on the platform |58. It is to be understood that during the operation of the car, the cable |50 is left relatively slack and therefore does not carry any of the weight of the means D.. which, as already explained, is supported at that time by the stops |08. As shown in Figs. 4, 3, 9 and 12, the stops I0! are in the form of slides which are connected by a crosswise tubular member and which are adjustable in guide brackets |68 secured to the supplemental cross member 23 of the car framework beneath the side sills 2. Affixed to the tube |65 in laterally spaced relation between the brackets |55 are collars |61 which have pivotal connection with the rods |68 of eccentric straps |09 engaging eccentrica im at opposite endsof the delivery shaft |l|| of the speed reducing unit |03 previously referred to. This speed reducing unit |03 is operable by an electric motor |12 which is mounted alongside said unit on a platform |13 supported on the side sill members 2. Thus, when the motor |`|2 is driven in one direction or the other, the stops |08 are simultaneously raised or lowered by the action ofthe eccentrics |10 on the shaft The brake means generally indicated by the numeral llt in Fig. 9 is directly influential upon the shaft |15 of the motor |13 to normally hold it against rotation.

During the operation of the cleaning car, the brush rotates in the direction indicated by the arrow in Fig. i3 and gathers up the material loosened by the scarifying and blasting mechanisms S and B, sweeping it forwardly into the housing ||d whereof the bottom slopes upwardly as shown at lita. Individually connected to the rear edge of the housing bottom |||la by flexible hinges |16 of leather or the like, are drag pans ll which are divided into three groups to correspond with the subdivisions |||a and Mib, |||b of the brush lll, the center group to ride over the track bed between the rails R and the two outer groups to ride over the track bed beyond said rails. When the means G is raised to its inactive position, downward movement of the pans ill is limited by individually-associated underreaching4 stopfingers |18, said lingers bcing pivoted on small brackets |19 secured to the bottom ||||a of the housing ||0 and limited in movement through engagement of prolongations at their upper ends with said housing bottom. At opposite sides beyond the endmost drag pans ill, the housing ||0 is provided with guard elements |00 fashioned from sheet metal to rightangular cross section with their inwardlyl directed horizontal bottom flanges ill underreaching outer corner recessions |11a of the endmost drag pans |11, as best shown in Figs. 21-23. At their front ends the guard elements |80 are pivotally connected at |82 to the opposite sides of the housing for the purposes of independent adjustability. As shown, the guardv elements |80 are restrained against lateral movement and held in adjusted positions by bolts |818 which pass through vertical slots |85 in the side walls of the housing ||0, with their bottom edges approximately at the level of the ties T. Thus. during track cleaning, the pans |11 are free to rise and fall in adapting themselves to undulations or irregularities in the surface of the track bed, such movement being facilitated by reason of the inclination of said pans; while the guards |8|, which, it is to be particularly observed from Fig. 18, reach to a point below the axis of the brush and thereby prevent lateral escape of the collected sweepings from the sides of the housing ||0. 'I'he reinforcing angles shown at |86 strengthen the housing ||0 at the bottom and act as lift skids in the event that abnormal obstructions are met with. ,f

Within the housing ||0 immediately forward of the rotary brush is an inclined lift conveyor |81 whereof there are three sections |81a,

|81b, |81b (Figs. 14, 15 and 19) which correspond to the three sections of said brush. As shown, the three sections of the conveyer |81 operate in three trunk subdivisions |88a, |6817, |88b set apart within the housing ||0 by laterally spaced partitions |88, which are penetrated and sustained by a pair of transverse tubular girts |88A extending from side to side of said housing. Each section of the conveyer |81 comprises a pair of laterally spaced chains |8| which are trained about pairs of end sprocket wheels |82 and |93. The lower pairs of sprocket Wheels |82 for the respective chain pairs are mounted on separate but aligned shaft sections |9la, |94b. |94b, as shown in Fig. 17, while the three upper sets of sprocket wheels |83 are all mounted on a common crosswise shaft |85, see Fig. 14.` The direction of movement of the several conveyer chains is as indicated by a curved arrow in Fig. 13, and, as shown, each conveyer section has pusher varies |96 which extend crosswise between its component chains and drag along the inclined bottom ||0a of the housing ||0. For the purpose of compensating for wear of the conveyer chain |8|, we have provided, as shown in Figs. 4 and 13, a slack take-up means which comprises a transverse shaft 365 with idler sprockets 366 thereon in engagement with the upper run of said chain. The shaft 865 is journaled at its ends, in bearings 361 carried by plates 388 which are adjustable in guideways 369 at opposite sides of the housing ||0, through pivotally attached rods 310 extending up through bosses 31| on the frame |00 and provided at their protruding threaded ends with draw nuts 312. Pivoted retractable keepers 313 serve to prevent accidental rotation of the nuts 312 after adjustment of the latter. At their upper ends the trunks |88a, |88b, |8811 communicate through openings at their bottoms with a transverse trough |91 which is built into the housing ||0, see Figs. 13 and 14 and which contains a screw conveyer |98 having oppositely pitched end portions |98a and |98b whereby the collected material is worked inwardly toward a central bottom outlet |99. The power for driving the brush is derived from an electric motor 200 mounted on the top of the frame of the housing ||0, the shaft of the motor being directly connected to a speed reducer 20|. The output shaft 202 of this speed reducer 20| is connected by a sprocket chain 203 with a shaft 208 and the latter shaft is in .turn connected by another sprocket chain 205 withthe shaft ||2 of the brush see Fig. 4. As further shown in Fig. 4, and also in Figs. 9 and l0, the chain 205 is enclosed in a separate housing 206 which extends along one side of the brush housing ||0 and which is attached to one of the brush carrying arms ||5. The chain conveyer sections |81a, |81b, |811), on the other hand, derive their motion from another electric motor 201 which is mounted on the top of the housing ||0 alongside the motor 200 and which has its shaft directly connected to a smaller speed reducing unit 208; the output shaft 209 of said unit being connected by a chain 2|0 with the shaft of said conveyer units, and the shaft of the screw conveyer |88 being connected by a sprocket chain 2|| with said shaft |95 as shown in Fig. 14. The chains 2|0 and 2| are respectively enclosed in housings 2|2 and 2| 3 also attached to the main housing ||0 as also clearly shown in Fig. 14.

Extending transversely of the housing ||0 immediately forward of the brush (Figs. 13, 16 and 19) is a shaft 2|5 with plural pendent arms 2|6 which are arranged in three groups, the arms of such groups supporting at their lower ends within the trunks |88a, |88b, |88b, cross bars 2|1 with rearwardly projecting longitudinal ridges 2|8 in the path of the ends of the bristles of the respective brush sections. By this means, the brush bristles in passing, are flexed to throw off debris which may cling to them, such debris being diverted forwardly in the housing ||0 by deflecting baiiles 2|9 in the respective trunks |88a, |88b, |88b into the province of the several sections of the conveyer |81, and eventually carried along by the vanes |88 of said conveyer as they drag the bottom of said housing ||0. As shown in Figs. 13 and 19, the ends of the shaft 2|5 protrude at the sides of the housing ||0 for rigid attachment to them of arms 220. Eye bolts 22|l pivotally connected to the upper ends of the arms 220 have their Shanks passing through apertured lugs 222 at the sides of the housing ||0 and provided with nuts 223 to engage the opposite faces of said lugs. This means makes possible adjustment of the bars 2|1 relative to the several sections of the brush to vary the extent to which the brush bristles are flexed.

Elevating conveyer means Disposed in the central longitudinal plane of the car is the elevating conveyer means which is comprehensively designated by the letter C. As shown, this conveyer means includes a trunk 250, see Figs. 3, 4, 13 and 14, which extends upwardly and forwardly at an inclination from a point immediately beneath the discharge outlet |99 of the trough |81 of the gathering means G to a point at the top of the car body above the truck 3, said trunk being rigidly secured to the car framework. Within the trunk 250 is a conveyer 25| consisting of a pair of laterally spaced chains 252 which are trained about sprocket wheels 253 and 25| on shafts 255 and 258 journaled respectively in suitable bearings in the side walls of said trunk adjacent the upper and lower ends of the latter. The crosswise vanes 251 of the conveyer 25| drag along the bottom of the amuser the housing illil of the gathering means G through a top opening 25d at the lower end of the trunk, to a bottom outlet fbi at the upper end of said trunk. The sprocket shaft itt of the conveyer fil is driven by means of a sprocket r chain connection itt from the output shaft iti of a speed reducer iti mounted, with a driving motor ftd therefor, on a platform its at the top of the forward portion of the car framework, see Fig. 3. As shown, the chain it is enclosed in a protecting housing ftd attached to the trunk ftd and to the casing of the speed reducer unit iti. rfhe material discharged from the trunk itt falls into the lower end of a second trunk itil which is correspondingly inclined and which is pivotally connected to the car framework at iii. ds shown in Fig. 3, the trunk im extends forwardly beyond the front end of the car to overreach the contiguous end of the distributing conveyer means fili of a dirt car fili. Housed within the trunk iii is a conveyer iii consisting of laterally spaced parallel chains iii which are trained about end sprockets fit and ill on shafts fit and fili Journaled in suitable bearings adjacent the opposite ends of said trunk, said chains being provided with flights fdd like those of the other conveyer chains previously described. |lhe means for driving the conveyer iii includes an electric motor fdl which is mounted on a platform iti suspended from the tr ift the shaft of said motor being directly connected to a speed reducer fdd also mounted on said platform. The output shaft itt of the speed reducer iii is connected. by means of a sprocket chain fdl, to a transmission shaft fdd :lournaled in bearings iid medially of the top of the trunk iid, and said transmission shaft is in turn connected, by a sprocket chain iti, with the shaft fili of the sprockets fill. The trunk fili can be raised or lowered from the position in which it is illustrated by means of a manually operable jack comprehensively designated by the numeral fill in Figs. 3 and 5. As shown, this jack comprises a cylinder idf which is supported on a cross member iii extending between two auxiliary uprights fdd at the front end of the car, and which has the upper end of its piston itil connected to a cross head ist whereof the ends slidably engage the inner sides of said uprights, and underreach pad brackets fill at the underside of the trunk mit at about the middle.

At the rear end of the sweeper car we have provided a hoisting means which is comprehensively designated by the letter H in Figs. 2 and li of the drawings. and includes an upwardly tapered round section pedestal i i 5 which is mounted on a platform dit sustained by the rear sills i over the center of the rear truck i of the car. The pedestal dit is rigidly secured to the platform dit at its base by screw bolts (not shown). Supported for rotation about the axis of the pedestal iii at the top is a head dit, and surrounding the pedestal about midway of its height is a collar iid. said head and said collar being rigidly connected at the back of the crane by a pair of channel struts iii, and at the front by a pair of strut rods iii. The boom B2b of the hoist H is built up as an open structure from standard steel forms and is of obtuse angle conhguration as viewed from the side, see Fig. i, with its laterally spaced side members, see Fig. i, pivotally connected at their lower ends to the collar iii at dit. .il tension member generally deated iii, colate of two .luxtapositioned slide bars 328 and $29 w ereof the remote ends are pivotally connected at 330 and 33t respectively to the head collar lill and to the boom m5.' The bars 82d and 329 are maintained in assembled relation through overlap of keeper lugs u32 on the one over the edges of the other. Normally, the tension member izl is extended as shown in Fig. 2. with a holding pin 333 passed through registering apertures in its component bars 33o and 33t and with the end of the booni resting in a central saddle 33d provided by the body framework of the car above the platform it, see Fig. 6. Associated with the boom b2b is a cable dit which extends from a Winding drum dit on the struts dii to a sheave dal at the outer end of the boom, and, after the formation therein of a suspension loop dit for a hook tackle pulley tid, is anchored on said boom at dit. The drum dit is operable by a reversible electric motor Mi also mounted on the struts iii. The tension member i271 can be shortened as shown in Fig. d to support the boom ift in elevated active position when the hoist is to be used, by passage of the pin iii through other registerable apertures in the component bars of said member. The hoist H can be employed for various purposes, for example, in mounting the distributing conveyer Elf on the dirt car iii. with the latter on a track alongside the cleaning car preparatory to making up the train in which said dirt car and said cleaning car are interposed as presently explained.

Mounted substantially centrally of the car body on the control platform di is an instrument housing iti in which are enclosed switches (not shown) for individually controlling the supply of electric current to the various electric motors hereinbefore referred to, through suitable wiring the illustration of which has been omitted from the drawings to avoid complication and confusion. ln this connection it is to be under stood that speed ratios of the drives for the several conveyors embodied in the car are such as to preclude clogging at any point in the series,

. that is to say, each conveyer is driven somewhat faster than the one immediately preceding it.

The track cleaning car of my invention is designed for interposition as shown in a train (see Fig. l) which, in addition to such car.. includes a steam locomotive dit with its tender dit. a caboose :Ml and a power car 34 arranged behind the sweeper car, and one or more dirt cars which are placed ahead of said sweeper car. The locomotive its not only serves as the means for propelling the train, but supplies the steam needed for the nozzles of the blast means B on the sweeper car, high-pressure steam being conducted from the boiler of the locomotive by means of piping iti which through piping 360 extendgg ing beneath the body of the power car add is connected to the piping 53 on said sweeper car, suitable couplings being provided at the junctures of these train units. The power car 34B contains internal combustion motor generator sets 35i gg that supply current for operating the various electric motors on the sweeper car by way of suitable power lines, not illustrated. The compressed air necessary for operating the cylinders on the track cleaning car may be supplied to the storage tanks from the air brake system (not shown) of the train.

Having thus described our invention, we claim:

1. A railway track cleaning car comprising a body with truck wheels; a dirt gathering unit including a rotary brush and incorporated power drive means for collecting refuse accumulations of sand, cinders, etc. from the track bed between and beyond the rails, said unit being pivotally connected to the car body with capacity to rise and fall upon meeting with abnormal obstructions on said bed; means for lifting the gathering unit about its pivot from operative relation to the track bed when its use is not desired; means for releasably securing said unit in raised posi tion; and regulatable'stop means on the body for engaging beneath the free end of the unit to limit the downward movement of the latter for maintenance of the brush in proper operative relation to the track bed, said stop means consisting of a slide with a projection thereon to underreach the free end of the gathering unit, a rotary eccentric with its strap connected to the slide, means for rotatively adjusting the eccentric. and means for preventing rotation of the eccentric in adjusted positions.

2. A railway track cleaning car comprising a body with truck wheels; a dirt gathering unit including a rotary brush and incorporated power drive means for collecting refuse accumulations of sand, cinders, etc.. from the track bed between and beyond the rails. said unit being pivotally connected to the car body with capacity to rise and fall upon meeting with abnormal obstructions on said bed; means for lifting the gathering unit about its pivot from operative relation to the track bed when its use is not desired; means for releasably securing said unit in raised position; and regulatable stop means on the body for engaging beneath the free end of the unit to limit downward movement of the latter for maintenance of the brush in proper operative relation to the track bed, said stop means consisting of a slide with a projection thereon to underreach the free or swinging end of the gathering unit, a rotary eccentric with its strap connected to the slide, power means for rotating the eccentric, and brake means for preventing rotation of the eccentric in adjusted positions.

3. A railway track cleaning car comprising a body with truck wheels; a dirt gathering unit including a rotary brush and incorporated power drive means for collecting refuse accumulations of sand, cinders, etc. from the track bed between and beyond the rails, said unit being pivotally connected to the car body with capacity to rise and fall upon meeting with abnormal obstructions on said bed; means for lifting the gathering unit about its pivot from operative relation to the track bed when its use is not desired; and means for releasably securing said unit in raised position, consisting of a keeper in the form of a vertical lever which is fulcrumed at its lower end to the car body so that its upper end can be moved beneath a notched projection at the free end of the unit when the latter is raised, and power means on the car body for actuating the lever.

4. A track cleaning railway car comprising a body with truck wheels; a dirt gathering unit including a rotary brush, a supporting frame therefor pivotally connected to the car body with capacity for up and down movement, means for releasably supporting the frame in its elevated position including a keeper in the form of a vertical lever fulcrumed at its lower end on the car body so as to be swingable beneath a notched projection at the free end of the frame; and power means on the car body for actuating said lever.

5. A track cleaning railway car comprising a body with truck wheels; a dirt gathering unit in-.

' up and dOWIl movement, and pOWeI' means OD the frame for driving the brush; a dirt collecting Ihousing attached to the frame and enclosing the brush except at the region of its contact with the track bed and having an upwardly inclined bottom wall with a. discharge aperture centrally thereof at an elevated portion, means within the housing adjacent the brush and driven by another motor on the frame for upwardly and laterally diverting the accumulating dirt toward said aperture; and a separately driven elevating conveyer for receiving the discharged dirt and delivering it at a higher level from the car.

6. A track cleaning railway car comprising a body with truck wheels; and a dirt gathering unit supported by the car body, said unit including a rotary brush with end groups of flat bristles skewed respectively in opposite directions so as to displace the dirt on the track bed inwardly away from the track rails, a dirt collecting housing enclosing the brush except at the region ot its contact with the track bedI a pivotally supported element within the housing for flipping the brush bristles to release clinging dirt, and means externally of the housing for adjusting said element and a cooperative baille means also within the housing for deecting the dirt so released away from the brush.

'1. A track cleaning railway car comprising a body with truck wheels; a dirt gathering unit including a frame pivotally connected at one end to the car body with capacity for up and down movement, a rotary brush floatingly supported for up and down movement by arms fulcrumed on the frame, and pressure uid means mounted on thc frame and operatively connected to the brush arms to preclude bouncing of the brush as it passes over surface irregularities of the track bed.

8. A track cleaning railway car comprising a body with truck wheels; a dirt gathering unit including a frame pivotally connected at one end to the car body with capacity for up and down movement, a rotary brush oatingly supported for up and down movement by arms fulcrumed on the frame, a pressure fluid cylinder mounted on the frame and leverage connections between the brush-supporting arms and the piston of said cylinder to preclude bouncing of the brush as it passes over surface irregularities of the track bed.

9. A railway track cleaning car, comprising a body with wheeled supporting trucks; a dirt gathering unit including a frame pivotally connected at one end to the car body with its free end bearing upon a vertically adjustable stop on the car body, a transverse axis rotary brush, an arm fulcrumed on the frame in the distal end of which the brush is rotatively supported with capacity for limited up and down movement, an electric motor and a direct-connected speed reducer mounted onV the frame, and chain gearing by which the brush is driven from the speed reducer; and means for lifting the unit about its pivotal connection with the car body to raise the brush clear of the track bed when its use is not desired.

10. A railway track cleaning car, according to claim 9, in which the dirt cleaning unit further includes a casing supported by the frame and enclosing the brush, said casing having an upwardly inclined bottom wall, an endless belt conveyer for elevating dirt delivered by the brush into a pocket within the upper portion of the casing, a.

l second speed reducer mounted on the frame and also direct connected to the motor, and chain gearing by which the dirt elevating conveyor is driven from said second speed reducer.

11. A railway track cleaning car according to claim a, in which the dirt cleaning unit further includes a casing supported by the frame and enclosing the brush, said casing having an upwardly inclined bottom wall, an endless belt conveyer for elevating dirt gathered by the brush into a pocket ln the upper portion of the casing, a transverse axis screw conveyer with right and left hand thread portions for advancing the elevated dirt to an outlet aperture centrally of the bottom of the pocket, a second speed reducer mounted on the frame and also direct connected to the motor. and chain gearing by which the dirt elevating conveyer and the screw conveyer are driven from said second speed reducer.

12. A track cleaning car comprising a body with wheeled supporting trucks; a dirt gathering unit including a frame pivotally connected at one end to the car body and having its free end bearing upon a vertically adjustable stop on the car body, an arm fulcrumed on the frame with capacity for limited up and down movement, a transverse airis brush rotatively supported in the distal end of the arm, an electric motor and a direct connected speed reducer mounted on the frame, a sprocket wheel on the output shaft of the speed reducer connected by a chain to a sprocket wheel on the fulcrum anis of the arm, and a second sprocket on said ful crum axis connected by another chain to a sprocket wheel on the axis of the brush; and means for moving the unit about its pivotal connection with the car body to raise the brush clear of the track bed when its use is not desired.

13. A railway track cleaning car comprising front and rear trucks with wheels to run on the track rails; a body with end platforms :lo: u edi ately over the respective trucks, and a medially disposed operators control platform elevated above the level of the end platforms, with pro vision therebeneath, of a correspondingly high clear space between trucks; a rotary brush dirt gathering unitpivotally supported frosn the body adjacent the rear truck with capacity for up and down movement in the clear space aforesaid during the sweeping; means for lifting the gathering unit clear of the track, when its use is not desired, including a motor on the control platform; and retractable means on one of the end platforms for holding the gathering unit in raised position.

14. A railway track cleaning car comprising front and rear trucks with wheels to run on the track rails; a body with end platforms mi diately over the respective trucks, a medially dis posed operators control platform at an elevation above that of the end platforms. with provision therebeneath, of a correspondingly high clear space between trucks; a rotary dirt gathering unit pivotally supported from the body adjacent the rear truck with capacity for up and down movement in the clear space aforesaid during the sweeping; means for lifting the gathering unit clear of the track, when its use is not desired, including a motor on the control platform; retractable means on the rear end platform for holding the gathering unit in raised position; an elevating sprocket chain conveyer supported by.,

extending upwardly and forwardly at an inl ,i i from a point below a discharge outlet at the front of a housing enclosing the brush of the gathering unit and operative to deliver dirt received from said housing to a point above the front truck for discharge from the car; and means for actuating the lift conveyer inc n; a motor also mounted on the platform, a drive connections between said otor wel the upper sprocket shaft of the conveyer.

15. A track cleaning car according to claim ld, in'which the body has the form of a truss of structural steel with short side longitudinale immtely over the trucks supporting the end platforms, full length side longitudinals at a level well above the short longitudinale supporting the control platfo ai and uprights and cross members coecting said longitudinale.

1d. A railway track cleaning car comprising front and rear with wheels to run on the track rails; a body with end platforms ediately over the respective trucks; a medially disposed operator's control platform at a level above that of the e platforms, with provision therebeneath of a correspondingly high clear space between hucks, and a supplemental platform over the front end truck at a level intermediate the platform on the latter truck and the control platform; a rotary brush dirt gathering unit pivotally supported fro the body adjacent the rear truck with capacity for up and do movement in the clear space aforesaid dg the sweeping; means for lifting the gathering unit clear of the track when its use is not desired including a motor on the control platfo; and retractable means on the rear end platform for holding the gathering i i s t in raised position; elevat conveyor unit composed of two sections respectively with endless sprocket cina, one section extending upwardly and forwardly through the car body from a point below a harge outlet at the,I front of a housing enclosing the brush of the gathering unit to a point above the front truck, and the other section be i in parallel relation to the hrst section with lts receiving end below the delivery end of the st tion and extending forwardly and upwardly to discharge beyond the front end of the car; means for actuating the chain of the drst conveyor stlon including a motor on the control platform, and drive connections between said motor and the upper sprocket shaft of said drst section: and means for actuating the second conveyer section including a motor mounted on the supplemental platform, and drive connections between the latter motor and the upper soket l; t of said second conveyer section.

BERT 1 1 "il ill ,i

die of this patent:

1e 1 i, l i i D STATES PA Number Name Date asdildd Schulze lieb.| 26, 1884 343,353 right ..-L June 6, 1886 lldlldd Reynolds Dec. 2d, 1889 612,789 Reynolds Oct.. 18, 1898 617,420 Huil Jan, l0, 1899 651,880 McCrory et al June i9, 1900 '720ml Pike Feb. 10, 1903 c7632? lPevey Jan, 14, 1908 835,821 Bantln Oct. 15, 1909 lthm references on following nagel 5 UNITEDv STATES PATENTS Number Name Date Quertier Oct. 5, 1909 Soos Sept. 27, 1910 Chisholm Oct. 4, 1910 Gregory Aug. 15, 1911 Killman Feb. 17, 1914 Warner June 13, 1916 Brumbaugh Jan. 16, 1917 Hedley et al Sept. 25, 1917 Webster Sept. 4, 1917 Olson May 16, 1922 vena Sept. 18, 1923 Number 16 Name Date Ursino 'Oct. 2, 1923 Morris May 20, 1924 Dougherty Feb. 24, 1925 Prayer July 21, 1925 Schroeder Jan. 25, 1927 Protzeller May 31, 1927 Guilbert et al. Oct. 6, 1931 Ray May 2, 1933 Cartlldge Jan. 7, 1936 Hough Sept. 22, 1938 Finnell July 8, 1941 Miller et nl Apr. 9, 1946 

